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3. Expression of potential tumour suppressor LRIG1 is higher in low grade gliomas and in secondary glioblastomas compared to high grade gliomas and primary glioblastomas

Author

Happe, M, Goldbrunner, R, and Timmer, M

Subjects
ddc: 610, Medicine and health
Abstract

Objective: The LRIG family of integral membrane proteins consists of LRIG1-3. While LRIG2 is believed to be a tumor promoter, LRIG1 and LRIG3 seem to function as tumor suppressors. In this study, we aim to analyze and compare the expression of LRIG1 in different types of gliomas. Methods: Tumor [for full text, please go to the a.m. URL]

Published
2022
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4. Expression of potential tumour promoter LRIG2 is higher in secondary glioblastoma than in primary glioblastomas

Author

Happe, M, Goldbrunner, R, and Timmer, M

Subjects
ddc: 610, Medicine and health
Abstract

Objective: The LRIG gene family consists of LRIG1-3 which encode integral membrane proteins. While LRIG1 and LRIG3 are believed to be tumor suppressors, LRIG2 seems to function as a tumor promoter. It has been reported that LRIG2 expression is upregulated in gliomas and increases with higher tumor grade. [for full text, please go to the a.m. URL]

Published
2022
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12. Buchbesprechungen

Author

Boschke, F., Lamla, E., Jost, W., Schäfer, K., Gerson, F., Gäumann, T., Tomby, G. N., Gleiter, R., Schneider, W., Koch, E., Jaenicke, L., Luck, W. A. P., Schilde, L., Autrum, H., Stanhill, G., Happe, M., and Angermeier, W. F.

Published
1976
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13. Grand Rounds

Author

Fayolle, G., primary, Levick, W., additional, Lajiness-O'Neill, R., additional, Fastenau, P., additional, Briskin, S., additional, Bass, N., additional, Silva, M., additional, Critchfield, E., additional, Nakase-Richardson, R., additional, Hertza, J., additional, Loughan, A., additional, Perna, R., additional, Northington, S., additional, Boyd, S., additional, Anderson, A., additional, Peery, S., additional, Chafetz, M., additional, Maris, M., additional, Ramezani, A., additional, Sylvester, C., additional, Goldberg, K., additional, Constantinou, M., additional, Karekla, M., additional, Hall, J., additional, Edwards, M., additional, Balldin, V., additional, Strutt, A., additional, Pavlik, V., additional, Marquez de la Plata, C., additional, Cullum, M., additional, lacritz, l., additional, Reisch, J., additional, Massman, P., additional, Royall, D., additional, Barber, R., additional, Younes, S., additional, Wiechmann, A., additional, O'Bryant, S., additional, Patel, K., additional, Suhr, J., additional, Chari, S., additional, Yokoyama, J., additional, Bettcher, B., additional, Karydas, A., additional, Miller, B., additional, Kramer, J., additional, Zec, R., additional, Fritz, S., additional, Kohlrus, S., additional, Robbs, R., additional, Ala, T., additional, Gifford, K., additional, Cantwell, N., additional, Romano, R., additional, Jefferson, A., additional, Holland, A., additional, Newton, S., additional, Bunting, J., additional, Coe, M., additional, Carmona, J., additional, Harrison, D., additional, Puente, A., additional, Terry, D., additional, Faraco, C., additional, Brown, C., additional, Patel, A., additional, Watts, A., additional, Kent, A., additional, Siegel, J., additional, Miller, S., additional, Ernst, W., additional, Chelune, G., additional, Holdnack, J., additional, Sheehan, J., additional, Duff, K., additional, Pedraza, O., additional, Crawford, J., additional, Miller, L., additional, Hobson Balldin, V., additional, Benavides, H., additional, Johnson, L., additional, Tshuma, L., additional, Dezhkam, N., additional, Hayes, L., additional, Love, C., additional, Stephens, B., additional, Webbe, F., additional, Mulligan, K., additional, Dunham, K., additional, Shadi, S., additional, Sofko, C., additional, Denney, R., additional, Rolin, S., additional, Sibson, J., additional, Ogbeide, S., additional, Glover, M., additional, Warchol, A., additional, Hunter, B., additional, Nichols, C., additional, Riccio, C., additional, Cohen, M., additional, Dennison, A., additional, Wasserman, T., additional, Schleicher-Dilks, S., additional, Adler, M., additional, Golden, C., additional, Olivier, T., additional, LeMonda, B., additional, McGinley, J., additional, Pritchett, A., additional, Chang, L., additional, Cloak, C., additional, Cunningham, E., additional, Lohaugen, G., additional, Skranes, J., additional, Ernst, T., additional, Parke, E., additional, Thaler, N., additional, Etcoff, L., additional, Allen, D., additional, Andrews, P., additional, McGregor, S., additional, Daniels, R., additional, Hochsztein, N., additional, Miles-Mason, E., additional, Granader, Y., additional, Vasserman, M., additional, MacAllister, W., additional, Casto, B., additional, Patrick, K., additional, Hurewitz, F., additional, Chute, D., additional, Booth, A., additional, Koch, C., additional, Roid, G., additional, Balkema, N., additional, Kiefel, J., additional, Bell, L., additional, Maerlender, A., additional, Belkin, T., additional, Katzenstein, J., additional, Semerjian, C., additional, Culotta, V., additional, Band, E., additional, Yosick, R., additional, Burns, T., additional, Arenivas, A., additional, Bearden, D., additional, Olson, K., additional, Jacobson, K., additional, Ubogy, S., additional, Sterling, C., additional, Taub, E., additional, Griffin, A., additional, Rickards, T., additional, Uswatte, G., additional, Davis, D., additional, Sweeney, K., additional, Llorente, A., additional, Boettcher, A., additional, Hill, B., additional, Ploetz, D., additional, Kline, J., additional, Rohling, M., additional, O'Jile, J., additional, Holler, K., additional, Petrauskas, V., additional, Long, J., additional, Casey, J., additional, Duda, T., additional, Hodsman, S., additional, Stricker, S., additional, Martner, S., additional, Hansen, R., additional, Ferraro, F., additional, Tangen, R., additional, Hanratty, A., additional, Tanabe, M., additional, O'Callaghan, E., additional, Houskamp, B., additional, McDonald, L., additional, Pick, L., additional, Guardino, D., additional, Pietz, T., additional, Kayser, K., additional, Gray, R., additional, Letteri, A., additional, Crisologo, A., additional, Witkin, G., additional, Sanders, J., additional, Mrazik, M., additional, Harley, A., additional, Phoong, M., additional, Melville, T., additional, La, D., additional, Gomez, R., additional, Berthelson, L., additional, Robbins, J., additional, Lane, E., additional, Rahman, P., additional, Konopka, L., additional, Fasfous, A., additional, Zink, D., additional, Peralta-Ramirez, N., additional, Perez-Garcia, M., additional, Su, S., additional, Lin, G., additional, Kiely, T., additional, Schatzberg, A., additional, Keller, J., additional, Dykstra, J., additional, Feigon, M., additional, Renteria, L., additional, Fong, M., additional, Piper, L., additional, Lee, E., additional, Vordenberg, J., additional, Contardo, C., additional, Magnuson, S., additional, Doninger, N., additional, Luton, L., additional, Drane, D., additional, Phelan, A., additional, Stricker, W., additional, Poreh, A., additional, Wolkenberg, F., additional, Spira, J., additional, DeRight, J., additional, Jorgensen, R., additional, Fitzpatrick, L., additional, Crowe, S., additional, Woods, S., additional, Doyle, K., additional, Weber, E., additional, Cameron, M., additional, Cattie, J., additional, Cushman, C., additional, Grant, I., additional, Blackstone, K., additional, Moore, D., additional, Roberg, B., additional, Somogie, M., additional, Thelen, J., additional, Lovelace, C., additional, Bruce, J., additional, Gerstenecker, A., additional, Mast, B., additional, Litvan, I., additional, Hargrave, D., additional, Schroeder, R., additional, Buddin, W., additional, Baade, L., additional, Heinrichs, R., additional, Boseck, J., additional, Berry, K., additional, Koehn, E., additional, Davis, A., additional, Meyer, B., additional, Gelder, B., additional, Sussman, Z., additional, Espe-Pfeifer, P., additional, Musso, M., additional, Barker, A., additional, Jones, G., additional, Gouvier, W., additional, Johnson, V., additional, Zaytsev, L., additional, Freier-Randall, M., additional, Sutton, G., additional, Ringdahl, E., additional, Olsen, J., additional, Byrd, D., additional, Rivera-Mindt, M., additional, Fellows, R., additional, Morgello, S., additional, Wheaton, V., additional, Jaehnert, S., additional, Ellis, C., additional, Olavarria, H., additional, Loftis, J., additional, Huckans, M., additional, Pimental, P., additional, Frawley, J., additional, Welch, M., additional, Jennette, K., additional, Rinehardt, E., additional, Schoenberg, M., additional, Strober, L., additional, Genova, H., additional, Wylie, G., additional, DeLuca, J., additional, Chiaravalloti, N., additional, Ibrahim, E., additional, Seiam, A., additional, Bohlega, S., additional, Lloyd, H., additional, Goldberg, M., additional, Marceaux, J., additional, Fallows, R., additional, McCoy, K., additional, Yehyawi, N., additional, Luther, E., additional, Hilsabeck, R., additional, Fulton, R., additional, Stevens, P., additional, Erickson, S., additional, Dodzik, P., additional, Williams, R., additional, Dsurney, J., additional, Najafizadeh, L., additional, McGovern, J., additional, Chowdhry, F., additional, Acevedo, A., additional, Bakhtiar, A., additional, Karamzadeh, N., additional, Amyot, F., additional, Gandjbakhche, A., additional, Haddad, M., additional, Johnson, M., additional, Wade, J., additional, Harper, L., additional, Barghi, A., additional, Mark, V., additional, Christopher, G., additional, Marcus, D., additional, Spady, M., additional, Bloom, J., additional, Zimmer, A., additional, Miller, M., additional, Schuster, D., additional, Ebner, H., additional, Mortimer, B., additional, Palmer, G., additional, Happe, M., additional, Paxson, J., additional, Jurek, B., additional, Graca, J., additional, Meyers, J., additional, Lange, R., additional, Brickell, T., additional, French, L., additional, Iverson, G., additional, Shewchuk, J., additional, Madler, B., additional, Heran, M., additional, Brubacher, J., additional, Ivins, B., additional, Baldassarre, M., additional, Paper, T., additional, Herrold, A., additional, Chin, A., additional, Zgaljardic, D., additional, Oden, K., additional, Lambert, M., additional, Dickson, S., additional, Miller, R., additional, Plenger, P., additional, Sutherland, E., additional, Glatts, C., additional, Schatz, P., additional, Walker, K., additional, Philip, N., additional, McClaughlin, S., additional, Mooney, S., additional, Seats, E., additional, Carnell, V., additional, Raintree, J., additional, Brown, D., additional, Hodges, C., additional, Amerson, E., additional, Kennedy, C., additional, Moore, J., additional, Ferris, C., additional, Roebuck-Spencer, T., additional, Vincent, A., additional, Bryan, C., additional, Catalano, D., additional, Warren, A., additional, Monden, K., additional, Driver, S., additional, Chau, P., additional, Seegmiller, R., additional, Baker, M., additional, Malach, S., additional, Mintz, J., additional, Villarreal, R., additional, Peterson, A., additional, Leininger, S., additional, Strong, C., additional, Donders, J., additional, Merritt, V., additional, Vargas, G., additional, Rabinowitz, A., additional, Arnett, P., additional, Whipple, E., additional, Schultheis, M., additional, Robinson, K., additional, Iacovone, D., additional, Biester, R., additional, Alfano, D., additional, Nicholls, M., additional, Klas, P., additional, Jeffay, E., additional, Zakzanis, K., additional, Vandermeer, M., additional, Womble, M., additional, Corley, E., additional, Considine, C., additional, Fichtenberg, N., additional, Harrison, J., additional, Pollock, M., additional, Mouanoutoua, A., additional, Brimager, A., additional, Lebby, P., additional, Sullivan, K., additional, Edmed, S., additional, Kieffer, K., additional, McCarthy, M., additional, Wiegand, L., additional, Lindsey, H., additional, Hernandez, M., additional, Noniyeva, Y., additional, Lapis, Y., additional, Padua, M., additional, Poole, J., additional, Brooks, B., additional, McKay, C., additional, Meeuwisse, W., additional, Emery, C., additional, Mazur-Mosiewicz, A., additional, Sherman, E., additional, Kirkwood, M., additional, Gunner, J., additional, Miele, A., additional, Silk-Eglit, G., additional, Lynch, J., additional, McCaffrey, R., additional, Stewart, J., additional, Tsou, J., additional, Scarisbrick, D., additional, Chan, R., additional, Bure-Reyes, A., additional, Cortes, L., additional, Gindy, S., additional, Biddle, C., additional, Shah, D., additional, Jaberg, P., additional, Moss, R., additional, Horner, M., additional, VanKirk, K., additional, Dismuke, C., additional, Turner, T., additional, Muzzy, W., additional, Dunnam, M., additional, Warner, G., additional, Donnelly, K., additional, Donnelly, J., additional, Kittleson, J., additional, Bradshaw, C., additional, Alt, M., additional, Margolis, S., additional, Ostroy, E., additional, Higgins, K., additional, Eng, K., additional, Akeson, S., additional, Wall, J., additional, Davis, J., additional, Hansel, J., additional, Wang, B., additional, Gervais, R., additional, Greiffenstein, M., additional, Denning, J., additional, VonDran, E., additional, Campbell, E., additional, Brockman, C., additional, Teichner, G., additional, Waid, R., additional, Buican, B., additional, Armistead-Jehle, P., additional, Bailie, J., additional, Dilay, A., additional, Cottingham, M., additional, Boyd, C., additional, Asmussen, S., additional, Neff, J., additional, Schalk, S., additional, Jensen, L., additional, DenBoer, J., additional, Hall, S., additional, Holcomb, E., additional, Axelrod, B., additional, Demakis, G., additional, Rimland, C., additional, Ward, J., additional, Ross, M., additional, Bailey, M., additional, Stubblefield, A., additional, Smigielski, J., additional, Geske, J., additional, Karpyak, V., additional, Reese, C., additional, Larrabee, G., additional, Allen, L., additional, Celinski, M., additional, Gilman, J., additional, LaDuke, C., additional, DeMatteo, D., additional, Heilbrun, K., additional, Swirsky-Sacchetti, T., additional, Dedman, A., additional, Withers, K., additional, Deneen, T., additional, Fisher, J., additional, Spray, B., additional, Savage, R., additional, Wiener, H., additional, Tyer, J., additional, Ningaonkar, V., additional, Devlin, B., additional, Go, R., additional, Sharma, V., additional, Fontanetta, R., additional, Calderon, C., additional, Coad, S., additional, Fontaneta, R., additional, Vertinski, M., additional, Verbiest, R., additional, Snyder, J., additional, Kinney, J., additional, Rach, A., additional, Young, J., additional, Crouse, E., additional, Schretlen, D., additional, Weaver, J., additional, Buchholz, A., additional, Gordon, B., additional, Macciocchi, S., additional, Seel, R., additional, Godsall, R., additional, Brotsky, J., additional, DiRocco, A., additional, Houghton-Faryna, E., additional, Bolinger, E., additional, Hollenbeck, C., additional, Hart, J., additional, Lee, B., additional, Strauss, G., additional, Adams, J., additional, Martins, D., additional, Catalano, L., additional, Waltz, J., additional, Gold, J., additional, Haas, G., additional, Brown, L., additional, Luther, J., additional, Goldstein, G., additional, Kelley, E., additional, Raba, C., additional, Trettin, L., additional, Solvason, H., additional, Buchanan, R., additional, Baldock, D., additional, Etherton, J., additional, Phelps, T., additional, Richmond, S., additional, Tapscott, B., additional, Thomlinson, S., additional, Cordeiro, L., additional, Wilkening, G., additional, Parikh, M., additional, Graham, L., additional, Grosch, M., additional, Hynan, L., additional, Weiner, M., additional, Cullum, C., additional, Menon, C., additional, Lacritz, L., additional, Castro-Couch, M., additional, Irani, F., additional, Houshyarnejad, A., additional, Norman, M., additional, Fonseca, F., additional, Browne, B., additional, Alvarez, J., additional, Jiminez, Y., additional, Baez, V., additional, Resendiz, C., additional, Scott, B., additional, Farias, G., additional, York, M., additional, Lozano, V., additional, Mahoney, M., additional, Hernandez Mejia, M., additional, Pacheco, E., additional, Homs, A., additional, Ownby, R., additional, Nici, J., additional, Hom, J., additional, Lutz, J., additional, Dean, R., additional, Finch, H., additional, Pierce, S., additional, Moses, J., additional, Mann, S., additional, Feinberg, J., additional, Choi, A., additional, Kaminetskaya, M., additional, Pierce, C., additional, Zacharewicz, M., additional, Gavett, B., additional, Horwitz, J., additional, Ory, J., additional, Carbuccia, K., additional, Morra, L., additional, Garcon, S., additional, Lucas, M., additional, Donovick, P., additional, Whearty, K., additional, Campbell, K., additional, Camlic, S., additional, Brinckman, D., additional, Ehrhart, L., additional, Weisser, V., additional, Medaglia, J., additional, Merzagora, A., additional, Reckess, G., additional, Ho, T., additional, Testa, S., additional, Woolery, H., additional, Farcello, C., additional, Klimas, N., additional, Meyer, J., additional, Barwick, F., additional, Drayer, K., additional, Galusha, J., additional, Schmitt, A., additional, Livingston, R., additional, Stewart, R., additional, Quarles, L., additional, Pagitt, M., additional, Barke, C., additional, Baker, A., additional, Baker, N., additional, Cook, N., additional, Ahern, D., additional, Correia, S., additional, Resnik, L., additional, Barnabe, K., additional, Gnepp, D., additional, Benjamin, M., additional, Zlatar, Z., additional, Garcia, A., additional, Harnish, S., additional, Crosson, B., additional, Vaughan, L., additional, Fedio, A., additional, Sexton, J., additional, Cummings, S., additional, Logemann, A., additional, Lassiter, N., additional, Fedio, P., additional, Gremillion, A., additional, Nemeth, D., additional, Whittington, T., additional, Reckow, J., additional, Lewandowski, C., additional, Cole, J., additional, Lewandowski, A., additional, Spector, J., additional, Ford-Johnson, L., additional, Lengenfelder, J., additional, Sumowski, J., additional, Morse, C., additional, McKeever, J., additional, Zhao, L., additional, Leist, T., additional, Marcinak, J., additional, Piecora, K., additional, Al-Khalil, K., additional, Martin, P., additional, Thompson, L., additional, Kowalczyk, W., additional, Golub, S., additional, Lemann, E., additional, Piehl, J., additional, Rita, N., additional, Moss, L., additional, Nogin, R., additional, Drapeau, C., additional, Malm, S., additional, Armstrong, L., additional, Glidewell, R., additional, Orr, W., additional, Mears, G., additional, Allen, C., additional, Pierson, E., additional, Kavanaugh, B., additional, Tayim, F., additional, Llanes, S., additional, Poston, K., additional, Beathard, J., additional, Stolberg, P., additional, Jones, W., additional, Mayfield, J., additional, Weller, J., additional, Demireva, P., additional, McInerney, K., additional, Riddle, T., additional, Primus, M., additional, Highsmith, J., additional, Everhart, D., additional, Lehockey, K., additional, Sullivan, S., additional, Mandava, S., additional, Murphy, B., additional, Lalwani, L., additional, Rosselli, M., additional, Carrasco, R., additional, Zuckerman, S., additional, Brand, J., additional, Rivera Mindt, M., additional, Schaffer, S., additional, Alper, K., additional, Devinsky, O., additional, Barr, W., additional, Langer, K., additional, Fraiman, J., additional, Scagliola, J., additional, Roman, E., additional, Martinez, A., additional, Konopacki, K., additional, Juliano, A., additional, Whiteside, D., additional, Widmann, G., additional, Franzwa, M., additional, Sokal, B., additional, Morgan, E., additional, Bondi, M., additional, Delano-Wood, L., additional, Cormier, R., additional, Cumley, N., additional, Elek, M., additional, Green, M., additional, Kruger, A., additional, Pacheco, L., additional, Robinson, G., additional, Welch, H., additional, Parriott, D., additional, Loe, S., additional, Hughes, L., additional, Natta, L., additional, Quenicka, W., additional, McGoldirck, K., additional, Bennett, T., additional, Soper, H., additional, Collier, S., additional, Connolly, M., additional, Di Pinto, M., additional, Handel, E., additional, Davidson, K., additional, Livers, E., additional, Frantz, S., additional, Allen, J., additional, Jerard, T., additional, Sakhai, S., additional, Barney, S., additional, McGoldrick, K., additional, Sordahl, J., additional, Torrence, N., additional, and John, S., additional

Published
2012
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18. Stellenwert der 20-MHz-Sonographie des malignen Melanoms und pigmentierter Läsionen in der Routinediagnostik

Author

Hoffmann, K., primary, Happe, M., additional, Schüller, S., additional, Stücker, M., additional, Wiesner, M., additional, Gottlöber, P., additional, Schwarz, M., additional, Strahler, J., additional, Neubauer, H., additional, Jung, C., additional, Petereit, S., additional, Welzel, J., additional, Brautzsch, N., additional, Bohmeyer, J, additional, Wohlrab, J., additional, Freitag, M., additional, and Altmeyer, P., additional

Published
1999
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22. Optical coherence tomography (OCT)

Author

Happe, M, primary, Hoffmann, K, additional, v. D??ring, M, additional, Fricke, B, additional, Knuttel, A, additional, Bocker, D, additional, Stucker, M, additional, Lehnert, M, additional, Schwarze, H P, additional, Lueg, A, additional, and Altmeyer, P, additional

Published
1997
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27. Optical coherence tomography (OCT)

Author

Kn??ttel, A., primary, Garthe, C., additional, Rist, M., additional, B??cker, D., additional, Hoffmann, K., additional, Happe, M., additional, Fricke, B., additional, von D??ring, M., additional, and Altmeyer, P., additional

Published
1996
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34. Low-Dose Subcutaneous or Intravenous Monoclonal Antibody to Prevent Malaria.

Author

Wu, R. L., Idris, A. H., Berkowitz, N. M., Happe, M., Gaudinski, M. R., Buettner, C., Strom, L., Awan, S. F., Holman, L. S. A., Mendoza, F., Gordon, J., Hu, Z., Chagas, A. Campos, Wang, L. T., Da Silva Pereiral, L., Francica, J. R., Kisalu, N. K., Flynn, BJ., Shi, W., and Kong, W.-P.

Subjects
*MALARIA prevention, *DRUG therapy for malaria, *PROTOZOA, *CLINICAL trials, *PARASITEMIA, *MONOCLONAL antibodies
Abstract

Background: New approaches for the prevention and elimination of malaria, a leading cause of illness and death among infants and young children globally, are needed.Methods: We conducted a phase 1 clinical trial to assess the safety and pharmacokinetics of L9LS, a next-generation antimalarial monoclonal antibody, and its protective efficacy against controlled human malaria infection in healthy adults who had never had malaria or received a vaccine for malaria. The participants received L9LS either intravenously or subcutaneously at a dose of 1 mg, 5 mg, or 20 mg per kilogram of body weight. Within 2 to 6 weeks after the administration of L9LS, both the participants who received L9LS and the control participants underwent controlled human malaria infection in which they were exposed to mosquitoes carrying Plasmodium falciparum (3D7 strain).Results: No safety concerns were identified. L9LS had an estimated half-life of 56 days, and it had dose linearity, with the highest mean (±SD) maximum serum concentration (Cmax) of 914.2±146.5 μg per milliliter observed in participants who had received 20 mg per kilogram intravenously and the lowest mean Cmax of 41.5±4.7 μg per milliliter observed in those who had received 1 mg per kilogram intravenously; the mean Cmax was 164.8±31.1 in the participants who had received 5 mg per kilogram intravenously and 68.9±22.3 in those who had received 5 mg per kilogram subcutaneously. A total of 17 L9LS recipients and 6 control participants underwent controlled human malaria infection. Of the 17 participants who received a single dose of L9LS, 15 (88%) were protected after controlled human malaria infection. Parasitemia did not develop in any of the participants who received 5 or 20 mg per kilogram of intravenous L9LS. Parasitemia developed in 1 of 5 participants who received 1 mg per kilogram intravenously, 1 of 5 participants who received 5 mg per kilogram subcutaneously, and all 6 control participants through 21 days after the controlled human malaria infection. Protection conferred by L9LS was seen at serum concentrations as low as 9.2 μg per milliliter.Conclusions: In this small trial, L9LS administered intravenously or subcutaneously protected recipients against malaria after controlled infection, without evident safety concerns. (Funded by the National Institute of Allergy and Infectious Diseases; VRC 614 ClinicalTrials.gov number, NCT05019729.). [ABSTRACT FROM AUTHOR]

Published
2022
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35. Computerized diagnosis of skin cancer using neural networks

Author

Altmeyer, P., Pott, G., Happe, M., Husomann, R., Andres, M., Eckert, L., Tölg, S., Nashan, Schwarz, T., Dreier, Frosch, P.J., Scharfetter-Kochanek, K., Neumann, H., Ortonne, J-P., Andreassi, L., MacKie, R., Newton-Bishop, J., Cesarini, J.P., Zoras, U, Galvez Garcia, A., Lindskoy, R., Christensen, F., and Hoffmann, K.

Published
1998
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37. Heterologous cAd3-Ebola and MVA-EbolaZ vaccines are safe and immunogenic in US and Uganda phase 1/1b trials.

Author

Happe M, Hofstetter AR, Wang J, Yamshchikov GV, Holman LA, Novik L, Strom L, Kiweewa F, Wakabi S, Millard M, Kelley CF, Kabbani S, Edupuganti S, Beck A, Kaltovich F, Murray T, Tsukerman S, Carr D, Ashman C, Stanley DA, Ploquin A, Bailer RT, Schwartz R, Cham F, Tindikahwa A, Hu Z, Gordon IJ, Rouphael N, Houser KV, Coates EE, Graham BS, Koup RA, Mascola JR, Sullivan NJ, Robb ML, Ake JA, Lyke KE, Mulligan MJ, Ledgerwood JE, and Kibuuka H

Abstract

Ebola virus disease (EVD) is a filoviral infection caused by virus species of the Ebolavirus genus including Zaire ebolavirus (EBOV) and Sudan ebolavirus (SUDV). We investigated the safety and immunogenicity of a heterologous prime-boost regimen involving a chimpanzee adenovirus 3 vectored Ebola vaccine [either monovalent (cAd3-EBOZ) or bivalent (cAd3-EBO)] prime followed by a recombinant modified vaccinia virus Ankara EBOV vaccine (MVA-EbolaZ) boost in two phase 1/1b randomized open-label clinical trials in healthy adults in the United States (US) and Uganda (UG). Trial US (NCT02408913) enrolled 140 participants, including 26 EVD vaccine-naïve and 114 cAd3-Ebola-experienced participants (April-November 2015). Trial UG (NCT02354404) enrolled 90 participants, including 60 EVD vaccine-naïve and 30 DNA Ebola vaccine-experienced participants (February-April 2015). All tested vaccines and regimens were safe and well tolerated with no serious adverse events reported related to study products. Solicited local and systemic reactogenicity was mostly mild to moderate in severity. The heterologous prime-boost regimen was immunogenic, including induction of durable antibody responses which peaked as early as two weeks and persisted up to one year after each vaccination. Different prime-boost intervals impacted the magnitude of humoral and cellular immune responses. The results from these studies demonstrate promising implications for use of these vaccines in both prophylactic and outbreak settings., (© 2024. This is a U.S. Government work and not under copyright protection in the US; foreign copyright protection may apply.)

Published
2024
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38. Safety, tolerability, and immunogenicity of the Ebola Sudan chimpanzee adenovirus vector vaccine (cAd3-EBO S) in healthy Ugandan adults: a phase 1, open-label, dose-escalation clinical trial.

Author

Mwesigwa B, Houser KV, Hofstetter AR, Ortega-Villa AM, Naluyima P, Kiweewa F, Nakabuye I, Yamshchikov GV, Andrews C, O'Callahan M, Strom L, Schech S, Anne Eller L, Sondergaard EL, Scott PT, Amare MF, Modjarrad K, Wamala A, Tindikahwa A, Musingye E, Nanyondo J, Gaudinski MR, Gordon IJ, Holman LA, Saunders JG, Costner PJM, Mendoza FH, Happe M, Morgan P, Plummer SH, Hickman SP, Vazquez S, Murray T, Cordon J, Dulan CNM, Hunegnaw R, Basappa M, Padilla M, Gajjala SR, Swanson PA 2nd, Lin BC, Coates EE, Gall JG, McDermott AB, Koup RA, Mascola JR, Ploquin A, Sullivan NJ, Kibuuka H, Ake JA, and Ledgerwood JE

Subjects
Animals, Humans, Adult, Pan troglodytes, Uganda, Sudan, Antibodies, Viral, Adenoviridae genetics, Glycoproteins, Immunogenicity, Vaccine, Double-Blind Method, Hemorrhagic Fever, Ebola prevention & control, Ebola Vaccines, Ebolavirus genetics, Adenoviruses, Simian genetics
Abstract

Background: Sudan Ebola virus can cause severe viral disease, with an average case fatality rate of 54%. A recent outbreak of Sudan Ebola virus in Uganda caused 55 deaths among 164 confirmed cases in the second half of 2022. Although vaccines and therapeutics specific for Zaire Ebola virus have been approved for use during outbreak situations, Sudan Ebola virus is an antigenically distinct virus with no approved vaccines available., Methods: In this phase 1, open-label, dose-escalation trial we evaluated the safety, tolerability, and immunogenicity of a monovalent chimpanzee adenovirus 3 vaccine against Sudan Ebola virus (cAd3-EBO S) at Makerere University Walter Reed Project in Kampala, Uganda. Study participants were recruited from the Kampala metropolitan area using International Review Board-approved written and electronic media explaining the trial intervention. Healthy adults without previous receipt of Ebola, Marburg, or cAd3 vectored-vaccines were enrolled to receive cAd3-EBO S at either 1 × 10 10 or 1 × 10 11 particle units (PU) in a single intramuscular vaccination and were followed up for 48 weeks. Primary safety and tolerability endpoints were assessed in all vaccine recipients by reactogenicity for the first 7 days, adverse events for the first 28 days, and serious adverse events throughout the study. Secondary immunogenicity endpoints included evaluation of binding antibody and T-cell responses against the Sudan Ebola virus glycoprotein, and neutralising antibody responses against the cAd3 vector at 4 weeks after vaccination. This study is registered with ClinicalTrials.gov, NCT04041570, and is completed., Findings: 40 healthy adults were enrolled between July 22 and Oct 1, 2019, with 20 receiving 1 × 10 10 PU and 20 receiving 1 × 10 11 PU of cAd3-EBO S. 38 (95%) participants completed all follow-up visits. The cAd3-EBO S vaccine was well tolerated with no severe adverse events. The most common reactogenicity symptoms were pain or tenderness at the injection site (34 [85%] of 40), fatigue (29 [73%] of 40), and headache (26 [65%] of 40), and were mild to moderate in severity. Positive responses for glycoprotein-specific binding antibodies were induced by 2 weeks in 31 (78%) participants, increased to 34 (85%) participants by 4 weeks, and persisted to 48 weeks in 31 (82%) participants. Most participants developed glycoprotein-specific T-cell responses (20 [59%, 95% CI 41-75] of 34; six participants were removed from the T cell analysis after failing quality control parameters) by 4 weeks after vaccination, and neutralising titres against the cAd3 vector were also increased from baseline (90% inhibitory concentration of 47, 95% CI 30-73) to 4 weeks after vaccination (196, 125-308)., Interpretation: The cAd3-EBO S vaccine was safe at both doses, rapidly inducing immune responses in most participants after a single injection. The rapid onset and durability of the vaccine-induced antibodies make this vaccine a strong candidate for emergency deployment in Sudan Ebola virus outbreaks., Funding: National Institutes of Health via interagency agreement with Walter Reed Army Institute of Research., Competing Interests: Declaration of interests NJS is listed on patents involving cAd3-vectored vaccines. All other authors declare no competing interests., (Copyright © 2023 Elsevier Ltd. All rights reserved.)

Published
2023
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39. Low-dose intravenous and subcutaneous CIS43LS monoclonal antibody for protection against malaria (VRC 612 Part C): a phase 1, adaptive trial.

Author

Lyke KE, Berry AA, Mason K, Idris AH, O'Callahan M, Happe M, Strom L, Berkowitz NM, Guech M, Hu Z, Castro M, Basappa M, Wang L, Low K, Holman LA, Mendoza F, Gordon IJ, Plummer SH, Trofymenko O, Strauss KS, Joshi S, Shrestha B, Adams M, Chagas AC, Murphy JR, Stein J, Hickman S, McDougal A, Lin B, Narpala SR, Vazquez S, Serebryannyy L, McDermott A, Gaudinski MR, Capparelli EV, Coates EE, Wu RL, Ledgerwood JE, Dropulic LK, and Seder RA

Subjects
Adult, Animals, Humans, Antibodies, Monoclonal therapeutic use, Plasmodium falciparum, Malaria, Falciparum drug therapy, Malaria, Falciparum prevention & control, Antimalarials, Malaria Vaccines therapeutic use
Abstract

Background: Human monoclonal antibodies might offer an important new approach to reduce malaria morbidity and mortality. In the first two parts of a three-part clinical trial, the antimalarial monoclonal antibody CIS43LS conferred high protection against parasitaemia at doses of 20 mg/kg or 40 mg/kg administered intravenously followed by controlled human malaria infection. The ability of CIS43LS to confer protection at lower doses or by the subcutaneous route is unknown. We aimed to provide data on the safety and optimisation of dose and route for the human antimalaria monoclonal antibody CIS43LS., Methods: VRC 612 Part C was the third part of a three-part, first-in-human, phase 1, adaptive trial, conducted at the University of Maryland, Baltimore Center for Vaccine Development and Global Health, Baltimore, MD, USA. We enrolled adults aged 18-50 years with no previous malaria vaccinations or infections, in a sequential, dose-escalating manner. Eligible participants received the monoclonal antibody CIS43LS in a single, open-label dose of 1 mg/kg, 5 mg/kg, or 10 mg/kg intravenously, or 5 mg/kg or 10 mg/kg subcutaneously. Participants underwent controlled human malaria infection by the bites of five mosquitoes infected with Plasmodium falciparum 3D7 strain approximately 8 weeks after their monoclonal antibody inoculation. Six additional control participants who did not receive CIS43LS underwent controlled human malaria infection simultaneously. Participants were followed-up daily on days 7-18 and day 21, with qualitative PCR used for P falciparum detection. Participants who tested positive for P falciparum were treated with atovaquone-proguanil and those who remained negative were treated at day 21. Participants were followed-up until 24 weeks after dosing. The primary outcome was safety and tolerability of CIS43LS at each dose level, assessed in the as-treated population. Secondary outcomes included protective efficacy of CIS43LS after controlled human malaria infection. This trial is now complete and is registered with ClinicalTrials.gov, NCT04206332., Findings: Between Sept 1, 2021, and Oct 29, 2021, 47 people were assessed for eligibility and 31 were enrolled (one subsequently withdrew and was replaced) and assigned to receive doses of 1 mg/kg (n=7), 5 mg/kg (n=4), and 10 mg/kg (n=3) intravenously and 5 mg/kg (n=4) and 10 mg/kg (n=4) subcutaneously, or to the control group (n=8). CIS43LS administration was safe and well tolerated; no serious adverse events occurred. CIS43LS protected 18 (82%) of 22 participants who received a dose. No participants developed parasitaemia following dosing at 5 mg/kg intravenously or subcutaneously, or at 10 mg/kg intravenously or subcutaneously. All six control participants and four of seven participants dosed at 1 mg/kg intravenously developed parasitaemia after controlled human malaria infection., Interpretation: CIS43LS was safe and well tolerated, and conferred protection against P falciparum at low doses and by the subcutaneous route, providing evidence that this approach might be useful to prevent malaria across several clinical use cases., Funding: National Institute of Allergy and Infectious Diseases, National Institutes of Health., Competing Interests: Declaration of interests AHI and RAS are listed as inventors on a pending patent application describing CIS43 and related antibodies. All other authors declare no competing interests., (Copyright © 2023 Elsevier Ltd. All rights reserved.)

Published
2023
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40. Safety, tolerability, and immunogenicity of the chimpanzee adenovirus type 3-vectored Marburg virus (cAd3-Marburg) vaccine in healthy adults in the USA: a first-in-human, phase 1, open-label, dose-escalation trial.

Author

Hamer MJ, Houser KV, Hofstetter AR, Ortega-Villa AM, Lee C, Preston A, Augustine B, Andrews C, Yamshchikov GV, Hickman S, Schech S, Hutter JN, Scott PT, Waterman PE, Amare MF, Kioko V, Storme C, Modjarrad K, McCauley MD, Robb ML, Gaudinski MR, Gordon IJ, Holman LA, Widge AT, Strom L, Happe M, Cox JH, Vazquez S, Stanley DA, Murray T, Dulan CNM, Hunegnaw R, Narpala SR, Swanson PA 2nd, Basappa M, Thillainathan J, Padilla M, Flach B, O'Connell S, Trofymenko O, Morgan P, Coates EE, Gall JG, McDermott AB, Koup RA, Mascola JR, Ploquin A, Sullivan NJ, Ake JA, and Ledgerwood JE

Subjects
Animals, Adult, Humans, Pan troglodytes, Antibodies, Viral, Vaccines, Synthetic adverse effects, Adenoviridae, Glycoproteins, Double-Blind Method, Marburgvirus, Adenoviruses, Simian
Abstract

Background: WHO has identified Marburg virus as an emerging virus requiring urgent vaccine research and development, particularly due to its recent emergence in Ghana. We report results from a first-in-human clinical trial evaluating a replication-deficient recombinant chimpanzee adenovirus type 3 (cAd3)-vectored vaccine encoding a wild-type Marburg virus Angola glycoprotein (cAd3-Marburg) in healthy adults., Methods: We did a first-in-human, phase 1, open-label, dose-escalation trial of the cAd3-Marburg vaccine at the Walter Reed Army Institute of Research Clinical Trials Center in the USA. Healthy adults aged 18-50 years were assigned to receive a single intramuscular dose of cAd3-Marburg vaccine at either 1 × 10 10 or 1 × 10 11 particle units (pu). Primary safety endpoints included reactogenicity assessed for the first 7 days and all adverse events assessed for 28 days after vaccination. Secondary immunogenicity endpoints were assessment of binding antibody responses and T-cell responses against the Marburg virus glycoprotein insert, and assessment of neutralising antibody responses against the cAd3 vector 4 weeks after vaccination. This study is registered with ClinicalTrials.gov, NCT03475056., Findings: Between Oct 9, 2018, and Jan 31, 2019, 40 healthy adults were enrolled and assigned to receive a single intramuscular dose of cAd3-Marburg vaccine at either 1 × 10 10 pu (n=20) or 1 × 10 11 pu (n=20). The cAd3-Marburg vaccine was safe, well tolerated, and immunogenic. All enrolled participants received cAd3-Marburg vaccine, with 37 (93%) participants completing follow-up visits; two (5%) participants moved from the area and one (3%) was lost to follow-up. No serious adverse events related to vaccination occurred. Mild to moderate reactogenicity was observed after vaccination, with symptoms of injection site pain and tenderness (27 [68%] of 40 participants), malaise (18 [45%] of 40 participants), headache (17 [43%] of 40 participants), and myalgia (14 [35%] of 40 participants) most commonly reported. Glycoprotein-specific antibodies were induced in 38 (95%) of 40 participants 4 weeks after vaccination, with geometric mean titres of 421 [95% CI 209-846] in the 1 × 10 10 pu group and 545 [276-1078] in the 1 × 10 11 pu group, and remained significantly elevated at 48 weeks compared with baseline titres (39 [95% CI 13-119] in the 1 ×10 10 pu group and 27 [95-156] in the 1 ×10 11 pu group; both p<0·0001). T-cell responses to the glycoprotein insert and neutralising responses against the cAd3 vector were also increased at 4 weeks after vaccination., Interpretation: This first-in-human trial of this cAd3-Marburg vaccine showed the agent is safe and immunogenic, with a safety profile similar to previously tested cAd3-vectored filovirus vaccines. 95% of participants produced a glycoprotein-specific antibody response at 4 weeks after a single vaccination, which remained in 70% of participants at 48 weeks. These findings represent a crucial step in the development of a vaccine for emergency deployment against a re-emerging pathogen that has recently expanded its reach to new regions., Funding: National Institutes of Health., Competing Interests: Declaration of interests NJS is listed on patents involving cAd3-vectored vaccines. All other authors declare no competing interests., (Copyright © 2020 Elsevier Ltd. All rights reserved.)

Published
2023
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41. The Combination of TIM3-Based Checkpoint Blockade and Oncolytic Virotherapy Regresses Established Solid Tumors.

Author

Gowan CC, Bartee MY, Flores E, Aksoy BA, Templeton C, Baillie K, Happe M, and Bartee E

Subjects
Humans, Tumor Microenvironment, Neoplasms therapy
Abstract

T-cell immunoglobulin and mucin domain 3 (TIM3) is emerging as a potential target for antibody-based checkpoint blockade. However, the efficacy of TIM3 blockade in combination with other treatment modalities, has not been extensively studied. In the current work we combined TIM3 blockade with myxoma virus-based oncolytic virotherapy (OV). Our results demonstrate that myxoma virus's ability to initiate an immense antitumor immune response complements the ability of TIM3 blockade to shift the tumor microenvironment to a more proinflammatory state. As a result, the combination of TIM3 blockade and OV is able to completely eradicate established disease, while neither monotherapy is effective. These data represent the first demonstration that OV can enhance the efficacy of TIM3 blockade and suggest that this treatment may need to be incorporated into more aggressive, combinatorial regimens in order to fulfill its potential as an immunotherapeutic., (Copyright © 2022 Wolters Kluwer Health, Inc. All rights reserved.)

Published
2023
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42. Combining transfer learning with retinal lesion features for accurate detection of diabetic retinopathy.

Author

Hassan D, Gill HM, Happe M, Bhatwadekar AD, Hajrasouliha AR, and Janga SC

Abstract

Diabetic retinopathy (DR) is a late microvascular complication of Diabetes Mellitus (DM) that could lead to permanent blindness in patients, without early detection. Although adequate management of DM via regular eye examination can preserve vision in in 98% of the DR cases, DR screening and diagnoses based on clinical lesion features devised by expert clinicians; are costly, time-consuming and not sufficiently accurate. This raises the requirements for Artificial Intelligent (AI) systems which can accurately detect DR automatically and thus preventing DR before affecting vision. Hence, such systems can help clinician experts in certain cases and aid ophthalmologists in rapid diagnoses. To address such requirements, several approaches have been proposed in the literature that use Machine Learning (ML) and Deep Learning (DL) techniques to develop such systems. However, these approaches ignore the highly valuable clinical lesion features that could contribute significantly to the accurate detection of DR. Therefore, in this study we introduce a framework called DR-detector that employs the Extreme Gradient Boosting (XGBoost) ML model trained via the combination of the features extracted by the pretrained convolutional neural networks commonly known as transfer learning (TL) models and the clinical retinal lesion features for accurate detection of DR. The retinal lesion features are extracted via image segmentation technique using the UNET DL model and captures exudates (EXs), microaneurysms (MAs), and hemorrhages (HEMs) that are relevant lesions for DR detection. The feature combination approach implemented in DR-detector has been applied to two common TL models in the literature namely VGG-16 and ResNet-50. We trained the DR-detector model using a training dataset comprising of 1,840 color fundus images collected from e-ophtha, retinal lesions and APTOS 2019 Kaggle datasets of which 920 images are healthy. To validate the DR-detector model, we test the model on external dataset that consists of 81 healthy images collected from High-Resolution Fundus (HRF) dataset and MESSIDOR-2 datasets and 81 images with DR signs collected from Indian Diabetic Retinopathy Image Dataset (IDRID) dataset annotated for DR by expert. The experimental results show that the DR-detector model achieves a testing accuracy of 100% in detecting DR after training it with the combination of ResNet-50 and lesion features and 99.38% accuracy after training it with the combination of VGG-16 and lesion features. More importantly, the results also show a higher contribution of specific lesion features toward the performance of the DR-detector model. For instance, using only the hemorrhages feature to train the model, our model achieves an accuracy of 99.38 in detecting DR, which is higher than the accuracy when training the model with the combination of all lesion features (89%) and equal to the accuracy when training the model with the combination of all lesions and VGG-16 features together. This highlights the possibility of using only the clinical features, such as lesions that are clinically interpretable, to build the next generation of robust artificial intelligence (AI) systems with great clinical interpretability for DR detection. The code of the DR-detector framework is available on GitHub at https://github.com/Janga-Lab/DR-detector and can be readily employed for detecting DR from retinal image datasets., Competing Interests: AB is an ad hoc Staff Pharmacist at CVS Health/Aetna. The remaining authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2022 Hassan, Gill, Happe, Bhatwadekar, Hajrasouliha and Janga.)

Published
2022
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43. Safety and immunogenicity of a trivalent virus-like particle vaccine against western, eastern, and Venezuelan equine encephalitis viruses: a phase 1, open-label, dose-escalation, randomised clinical trial.

Author

Coates EE, Edupuganti S, Chen GL, Happe M, Strom L, Widge A, Florez MB, Cox JH, Gordon I, Plummer S, Ola A, Yamshchikov G, Andrews C, Curate-Ingram S, Morgan P, Nagar S, Collins MH, Bray A, Nguyen T, Stein J, Case CL, Kaltovich F, Wycuff D, Liang CJ, Carlton K, Vazquez S, Mascola JR, and Ledgerwood JE

Subjects
Adjuvants, Immunologic, Adult, Animals, Antibodies, Neutralizing, Antibodies, Viral, Double-Blind Method, Female, Horses, Humans, Immunogenicity, Vaccine, Male, Middle Aged, Pain, Young Adult, Alphavirus, Encephalitis Virus, Venezuelan Equine, Vaccines, Virus-Like Particle
Abstract

Background: Western (WEEV), eastern (EEEV), and Venezuelan (VEEV) equine encephalitis viruses are mosquito-borne pathogens classified as potential biological warfare agents for which there are currently no approved human vaccines or therapies. We aimed to evaluate the safety, tolerability, and immunogenicity of an investigational trivalent virus-like particle (VLP) vaccine, western, eastern, and Venezuelan equine encephalitis (WEVEE) VLP, composed of WEEV, EEEV, and VEEV VLPs., Methods: The WEVEE VLP vaccine was evaluated in a phase 1, randomised, open-label, dose-escalation trial at the Hope Clinic of the Emory Vaccine Center at Emory University, Atlanta, GA, USA. Eligible participants were healthy adults aged 18-50 years with no previous vaccination history with an investigational alphavirus vaccine. Participants were assigned to a dose group of 6 μg, 30 μg, or 60 μg vaccine product and were randomly assigned (1:1) to receive the WEVEE VLP vaccine with or without aluminium hydroxide suspension (alum) adjuvant by intramuscular injection at study day 0 and at week 8. The primary outcomes were the safety and tolerability of the vaccine (assessed in all participants who received at least one administration of study product) and the secondary outcome was immune response measured as neutralising titres by plaque reduction neutralisation test (PRNT) 4 weeks after the second vaccination. This trial is registered at ClinicalTrials.gov, NCT03879603., Findings: Between April 2, 2019, and June 13, 2019, 30 trial participants were enrolled (mean age 32 years, range 21-48; 16 [53%] female participants and 14 [47%] male participants). Six groups of five participants each received 6 μg, 30 μg, or 60 μg vaccine doses with or without adjuvant, and all 30 participants completed study follow-up. Vaccinations were safe and well tolerated. The most frequently reported symptoms were mild injection-site pain and tenderness (22 [73%] of 30) and malaise (15 [50%] of 30). Dose-dependent differences in the frequency of pain and tenderness were found between the 6 μg, 30 μg, and 60 μg groups (p=0·0217). No significant differences were observed between dosing groups for any other reactogenicity symptom. Two adverse events (mild elevated blood pressure and moderate asymptomatic neutropenia) were assessed as possibly related to the study product in one trial participant (60 μg dose with alum); both resolved without clinical sequelae. 4 weeks after second vaccine administration, neutralising antibodies were induced in all study groups with the highest response seen against all three vaccine antigens in the 30 μg plus alum group (PRNT 80 geometric mean titre for EEEV 60·8, 95% CI 29·9-124·0; for VEEV 111·5, 49·8-249·8; and for WEEV 187·9, 90·0-392·2). Finally, 4 weeks after second vaccine administration, for all doses, the majority of trial participants developed an immune response to all three vaccine components (24 [83%] of 29 for EEEV; 26 [90%] of 29 for VEEV; 27 [93%] of 29 for WEEV; and 22 [76%] of 29 for EEEV, VEEV, and WEEV combined)., Interpretation: The favourable safety profile and neutralising antibody responses, along with pressing public health need, support further evaluation of the WEVEE VLP vaccine in advanced-phase clinical trials., Funding: The Vaccine Research Center of the National Institute of Allergy and Infectious Diseases, National Institutes of Health funded the clinical trial. The US Department of Defense contributed funding for manufacturing of the study product., Competing Interests: Declaration of interests We declare no competing interests., (Copyright © 2022 Elsevier Ltd. All rights reserved.)

Published
2022
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44. Broadly neutralizing antibodies for treatment and prevention of HIV-1 infection.

Author

Awan SF, Happe M, Hofstetter AR, and Gama L

Subjects
Antibodies, Neutralizing therapeutic use, Broadly Neutralizing Antibodies, HIV Antibodies, Humans, HIV Infections drug therapy, HIV Infections prevention & control, HIV-1 genetics
Abstract

Purpose of Review: Anti-HIV-1 broadly neutralizing antibodies (bNAbs) are promising agents in the fight against the AIDS epidemic. Multiple bNAbs have been already evaluated in clinical trials with encouraging results. This review discusses the use of bNAbs for the prevention and treatment of HIV-1 infection, focusing on manufactured products that have been evaluated in clinical settings., Recent Findings: More than 17 bNAbs have been evaluated for safety and pharmacokinetics in humans. The vast majority presented a well tolerated profile and were generally well tolerated. Serum half-life varied from 12 to 73.5 days and can be improved by the addition of mutations to the Fc regions. Results from the antibody-mediated prevention (AMP) study show that VRC01, a CD4-binding-site bNAb, was effective at preventing the acquisition of sensitive HIV-1 strains but did not prevent the acquisition of strains whose in vitro sensitivity to the antibody had an IC80 of more than 1 μg/ml. New bNAb combinations to improve coverage are currently being evaluated., Summary: In this review, we discuss the current landscape of HIV-1 bNAbs in clinical development. We also present the current strategies employed to improve the breadth, potency, serum half-life, effector function and administration of these compounds., (Copyright © 2022 Wolters Kluwer Health, Inc. All rights reserved.)

Published
2022
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45. Safety and immunogenicity of an HIV-1 prefusion-stabilized envelope trimer (Trimer 4571) vaccine in healthy adults: A first-in-human open-label, randomized, dose-escalation, phase 1 clinical trial.

Author

Houser KV, Gaudinski MR, Happe M, Narpala S, Verardi R, Sarfo EK, Corrigan AR, Wu R, Rothwell RS, Novik L, Hendel CS, Gordon IJ, Berkowitz NM, Cartagena CT, Widge AT, Coates EE, Strom L, Hickman S, Conan-Cibotti M, Vazquez S, Trofymenko O, Plummer S, Stein J, Case CL, Nason M, Biju A, Parchment DK, Changela A, Cheng C, Duan H, Geng H, Teng IT, Zhou T, O'Connell S, Barry C, Carlton K, Gall JG, Flach B, Doria-Rose NA, Graham BS, Koup RA, McDermott AB, Mascola JR, Kwong PD, and Ledgerwood JE

Abstract

Background: Advances in therapeutic drugs have increased life-expectancies for HIV-infected individuals, but the need for an effective vaccine remains. We assessed safety and immunogenicity of HIV-1 vaccine, Trimer 4571 (BG505 DS-SOSIP.664) adjuvanted with aluminum hydroxide (alum), in HIV-negative adults., Methods: We conducted a phase I, randomized, open-label, dose-escalation trial at the National Institutes of Health Clinical Center in Bethesda, MD, USA. Eligible participants were HIV-negative, healthy adults between 18-50 years. Participants were randomized 1:1 to receive Trimer 4571 adjuvanted with 500 mcg alum by either the subcutaneous (SC) or intramuscular (IM) route at weeks 0, 8, and 20 in escalating doses of 100 mcg or 500 mcg. The primary objectives were to evaluate the safety and tolerability of Trimer 4571 with a secondary objective of evaluating vaccine-induced antibody responses. The primary and safety endpoints were evaluated in all participants who received at least one dose of Trimer 4571. Trial results were summarized using descriptive statistics. This trial is registered at ClinicalTrials.gov, NCT03783130., Findings: Between March 7 and September 11, 2019, 16 HIV-negative participants were enrolled, including six (38%) males and ten (62%) females. All participants received three doses of Trimer 4571. Solicited reactogenicity was mild to moderate in severity, with one isolated instance of severe injection site redness (6%) following a third 500 mcg SC administration. The most commonly reported solicited symptoms included mild injection site tenderness in 14 (88%) and mild myalgia in six (38%) participants. The most frequent unsolicited adverse event attributed to vaccination was mild injection site pruritus in six (38%) participants. Vaccine-induced seropositivity occurred in seven (44%) participants and resolved in all but one (6%). No serious adverse events occurred. Trimer 4571-specific binding antibodies were detected in all groups two weeks after regimen completion, primarily focused on the glycan-free trimer base. Neutralizing antibody activity was limited to the 500 mcg dose groups., Interpretation: Trimer 4571 was safe, well tolerated, and immunogenic in this first-in-human trial. While this phase 1 trial is limited in size, our results inform and support further evaluation of prefusion-stabilized HIV-1 envelope trimers as a component of vaccine design strategies to generate broadly neutralizing antibodies against HIV-1., Funding: Intramural Research Program of the Vaccine Research Center, National Institute of Allergy and Infectious Diseases, National Institutes of Health., Competing Interests: CC, HG, JRM, and PDK are listed on patent applications involving Trimer 4571. All other authors declare no competing interests., (© 2022 The Authors.)

Published
2022
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46. BRAF/MEK inhibitors for BRAF V600E-mutant cancers in non-approved setting: a case series.

Author

Butt SU, Mejias A, Morelli C, Torga G, Happe M, Patrikidou A, and Arkenau HT

Subjects
Adult, Aged, Antineoplastic Combined Chemotherapy Protocols pharmacology, Female, Humans, Male, Middle Aged, Mitogen-Activated Protein Kinase Kinases metabolism, Mutation, Neoplasms genetics, Neoplasms pathology, Protein Kinase Inhibitors administration & dosage, Protein Kinase Inhibitors pharmacology, Proto-Oncogene Proteins B-raf genetics, Treatment Outcome, Antineoplastic Combined Chemotherapy Protocols administration & dosage, Mitogen-Activated Protein Kinase Kinases antagonists & inhibitors, Neoplasms drug therapy, Proto-Oncogene Proteins B-raf antagonists & inhibitors
Abstract

The management of cancer has been traditionally dependent on the primary tumour type and specific histologic subtypes. Recently, the introduction of molecular profiling tools and its increasing use in clinical practice has facilitated the emergence of novel genomically driven treatment options within the standard of care landscape as well as in the clinical trial setting. One such aberration is mutation in v-Raf murine sarcoma viral oncogene homolog B (BRAF), which results in hyperactivation of RAS-RAF-MEK-ERK signaling in the Mitogen-activated protein kinases (MAPK) pathway. BRAF and Mitogen-activated protein kinase, extracellular signal-regulated kinase kinase (MEK) inhibitors, although being currently approved for melanoma, non-small cell lung cancer (NSCLC) and colon cancer, have reported activity across other various cancers harbouring BRAF aberrations. It has been proposed that combined MEK and BRAF inhibition could overcome the acquired resistance commonly developed among patients receiving BRAF or MEK inhibitors as monotherapy. We report five cases of BRAF V600E (substitution of glutamic acid for valine in codon 600) aberrant refractory metastatic cancers treated with dual BRAF/MEK combination inhibitor therapy leading to an excellent clinical and radiological response and protracted duration of disease control.

Published
2021
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47. Race-related differences in functional antibody response to pneumococcal vaccination in HIV-infected individuals.

Author

Happe M, Samuvel DJ, Ohtola JA, Korte JE, and Westerink MAJ

Subjects
AIDS-Related Opportunistic Infections immunology, Adult, Aged, Antibodies, Bacterial blood, Biomarkers, CD4 Lymphocyte Count, Cytokines metabolism, Female, Humans, Inflammation Mediators metabolism, Male, Middle Aged, Pneumococcal Infections immunology, Population Groups, Population Surveillance, Vaccination, AIDS-Related Opportunistic Infections epidemiology, AIDS-Related Opportunistic Infections prevention & control, Antibodies, Bacterial immunology, Antibody Formation immunology, Biological Variation, Population immunology, Ethnicity, Pneumococcal Infections epidemiology, Pneumococcal Infections prevention & control
Abstract

Background: Both HIV positivity and African American (AA) ethnicity are associated with increased incidence of invasive pneumococcal disease (IPD). Poor immune response to pneumococcal polysaccharide-based vaccines may contribute to the race related increased frequency of IPD in African American HIV positive individuals., Methods: Caucasian and AA HIV-infected (HIV+) individuals 40-65 years old with CD4 + T cells/µl (CD4) >200 on antiretroviral therapy (ART) received either the 13-valent pneumococcal conjugate vaccine (PCV) followed by the 23-valent pneumococcal polysaccharide vaccine (PPV) or PPV only. Serum IgG, IgM and opsonophagocytic antibody responses to serotypes 14 and 23F as well as serum IgG and opsonophagocytic antibody responses to serotype 19A were measured pre- and post-vaccination. We measured serum markers of inflammation in all participants and performed single cell gene expression profiling at the baseline by HD Biomark in Caucasians and African Americans., Results: There were no significant differences in pre-immunization inflammatory markers or post-vaccination IgG and IgM concentrations between Caucasian and African American participants. However, we found significantly lower opsonophagocytic activity in response to serotypes 14 and 19A in the AA group compared to the Caucasian group. There was no association between inflammatory markers and immune response to vaccination, however we found extensive biomodal variation in gene expression levels in single IgM+ memory B cells. Differentially expressed genes may be related to differences in the immune response between ethnic groups., Conclusions: Distinct racial differences were found in the functional immune response following either PPV and/or PCV/PPV immunization in HIV-positive adults, although these differences were serotype dependent. Decreased ability to respond to vaccination may in part explain racial disparities in pneumococcal disease epidemiology. ClinicalTrials.gov ID: NCT03039491., (Published by Elsevier Ltd.)

Published
2019
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48. Two stage bioethanol refining with multi litre stacked microbial fuel cell and microbial electrolysis cell.

Author

Sugnaux M, Happe M, Cachelin CP, Gloriod O, Huguenin G, Blatter M, and Fischer F

Subjects
Bioelectric Energy Sources, Biofuels, Electrolysis, Ethanol chemistry, Ethanol isolation & purification, Ethanol metabolism
Abstract

Ethanol, electricity, hydrogen and methane were produced in a two stage bioethanol refinery setup based on a 10L microbial fuel cell (MFC) and a 33L microbial electrolysis cell (MEC). The MFC was a triple stack for ethanol and electricity co-generation. The stack configuration produced more ethanol with faster glucose consumption the higher the stack potential. Under electrolytic conditions ethanol productivity outperformed standard conditions and reached 96.3% of the theoretically best case. At lower external loads currents and working potentials oscillated in a self-synchronized manner over all three MFC units in the stack. In the second refining stage, fermentation waste was converted into methane, using the scale up MEC stack. The bioelectric methanisation reached 91% efficiency at room temperature with an applied voltage of 1.5V using nickel cathodes. The two stage bioethanol refining process employing bioelectrochemical reactors produces more energy vectors than is possible with today's ethanol distilleries., (Copyright © 2016 Elsevier Ltd. All rights reserved.)

Published
2016
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49. Scale-up of phosphate remobilization from sewage sludge in a microbial fuel cell.

Author

Happe M, Sugnaux M, Cachelin CP, Stauffer M, Zufferey G, Kahoun T, Salamin PA, Egli T, Comninellis C, Grogg AF, and Fischer F

Subjects
Electrodes, Electrolysis, Escherichia coli metabolism, Fertilizers, Hydrogen-Ion Concentration, Kinetics, Metals, Struvite chemistry, Wastewater, Bioelectric Energy Sources, Phosphates chemistry, Refuse Disposal methods, Sewage chemistry
Abstract

Phosphate remobilization from digested sewage sludge containing iron phosphate was scaled-up in a microbial fuel cell (MFC). A 3litre triple chambered MFC was constructed. This reactor was operated as a microbial fuel cell and later as a microbial electrolysis cell to accelerate cathodic phosphate remobilization. Applying an additional voltage and exceeding native MFC power accelerated chemical base formation and the related phosphate remobilization rate. The electrolysis approach was extended using a platinum-RVC cathode. The pH rose to 12.6 and phosphate was recovered by 67% in 26h. This was significantly faster than using microbial fuel cell conditions. Shrinking core modelling particle fluid kinetics showed that the reaction resistance has to move inside the sewage sludge particle for considerable rate enhancement. Remobilized phosphate was subsequently precipitated as struvite and inductively coupled plasma mass spectrometry indicated low levels of cadmium, lead, and other metals as required by law for recycling fertilizers., (Copyright © 2015 Elsevier Ltd. All rights reserved.)

Published
2016
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50. Microbial electrolysis cell accelerates phosphate remobilisation from iron phosphate contained in sewage sludge.

Author

Fischer F, Zufferey G, Sugnaux M, and Happe M

Subjects
Biodegradation, Environmental, Electrolysis, Hydrogen-Ion Concentration, Phosphates analysis, Sewage chemistry, Wastewater chemistry, Water Pollutants, Chemical analysis, Phosphates metabolism, Sewage microbiology, Waste Disposal, Fluid methods, Wastewater microbiology, Water Pollutants, Chemical metabolism
Abstract

Phosphate was remobilised from iron phosphate contained in digested sewage sludge using a bio-electric cell. A significant acceleration above former results was caused by strongly basic catholytes. For these experiments a dual chambered microbial electrolysis cell with a small cathode (40 mL) and an 80 times larger anode (2.5 L) was equipped with a platinum sputtered reticulated vitreous carbon cathode. Various applied voltages (0.2-6.0 V) generated moderate to strongly basic catholytes using artificial waste water with pH close to neutral. Phosphate from iron phosphate contained in digested sewage sludge was remobilised most effectively at pH ∼13 with up to 95% yield. Beside minor electrochemical reduction, hydroxyl substitution was the dominating remobilisation mechanism. Particle-fluid kinetics using the "shrinking core" model allowed us to determine the reaction controlling step. Reaction rates changed with temperature (15-40 °C) and an activation energy of Ea = 55 kJ mol(-1) was found. These analyses indicated chemical and physical reaction control, which is of interest for future scale-up work. Phosphate remobilisation rates increased significantly, yields doubled and recovered PO4(3-) concentrations increased four times using a task specific bio-electric system. The result is a sustainable process for decentralized phosphate mining and a green chemical base generator useful also for many other sustainable processing needs.

Published
2015
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